Portable solar power supply system and its applying device

ABSTRACT

A portable solar power supply system and its applying device are disclosed. The power supply system includes a receiving unit, a control block and a storage unit. After the receiving unit receives a solar power, the control block is used for storing the solar power into the storage unit. If a user wants to use a portable information processing device or other portable products, the power supply system supplies electric power to the device or product and extends the working time without limitations.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a power supply system, and more particularly to a solar power supply system that receives sunlight (or solar energy) and converts the solar energy into electric energy (or an electric power source), and the solar power supply system can be applied in various portable information processing devices or other portable products.

2. Description of the Related Art

As science and technology advance, various new technological products make our life more convenient, but all kinds of natural resources are exhausted more quickly when our environments are developed continuously. To overcome fuel shortage (including petroleum and coal), energy crisis and environmental pollution, scientists, researchers and engineers need to find an effective way of exploring new energy sources to protect our environment.

Solar energy, a natural electromagnetic wave, complies with the aforementioned requirements and causes no chemical pollution (such as carbon dioxide, carbon monoxide, sulfur dioxide, nitric oxide and dust), radiations or radioactive substances. Solar energy also has another feature of causing no thermal pollution at all, and providing an everlasting energy source with unlimited access.

In the past development process of applying the source of solar energy, the issue of uncollectible radiations was raised all the time. As science and technology advance, collectors (which are solar panels) are used to overcome the radiation issue. For the issue of intermittence of solar light source (due to the inconsistence between daytime and nighttime), a thermal energy storage or battery is adopted to overcome the intermittence issue, so that the application of solar energy becomes well-developed and extensively used.

Although the development of science and technology has brought us the solar energy, the present applications of solar energy are still not popular in the area of portable devices yet, and thus most portable devices still use a traditional power supply for their operation, and the power supply and recharge are definitely an issue, and thus it is an important subject for designers and manufacturers to develop an improved solar power supply system.

SUMMARY OF THE INVENTION

In view of the shortcomings of the prior art, the present invention provides a portable solar power supply system and its applying device to overcome the shortcomings of the prior art.

It is a primary objective of the invention to combine a portable power supply system with various portable products and supports the required electric power of the portable products. The power supply system of the invention comprises a receiving unit, a control block and a storage unit. When the receiving unit receives a solar electric power, the control block is used for storing the solar electric power to the storage unit. When a user wants to use the portable information processing device or other portable products, the power supply system can be used for supplying the power required for the operation of the portable device and extending the working time of the portable device without limitations.

In the meantime, the present invention includes an input terminal of direct current power DC and different types of output interfaces of direct current power DC, such that it is also one of the objectives of the invention to alternately and flexibly use the solar electric power and the direct current power DC to further improve the convenience of the portable products.

The control block further comprises a charge controller, an overdischarge controller and a DC-DC converter, wherein the charge controller is used for controlling a charge of the storage unit by a direct current power DC, and the overdischarge controller is used for terminating a discharge of the storage unit to protect the storage unit if the direct current power DC is lower than a safe value, and the DC-DC converter stabilizes the direct current power DC at a specific value and outputs the direct current power DC to produce a voltage stabilization effect.

Embodiments and related drawings are used for a detailed description of the technical contents and characteristics of the present invention as follows:

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a portable solar power supply system in accordance with the present invention;

FIG. 2 is a schematic view of a circuit structure of a portable solar power supply system in accordance with the present invention;

FIG. 3 is a schematic view of a circuit structure of a portable solar power supply system in accordance with the present invention;

FIG. 3A is a schematic view of a receiving unit of a portable solar power supply system in accordance with the present invention;

FIG. 3B is a schematic view of an output unit of a portable solar power supply system in accordance with the present invention;

FIG. 3C is a schematic view of a control block of a portable solar power supply system in accordance with the present invention;

FIG. 4 is a schematic view of a structure of a first application of a portable solar power supply system in accordance with the present invention;

FIG. 5 is another schematic view of a structure of a first application of a portable solar power supply system in accordance with the present invention;

FIG. 6 is a schematic view of a structure of a second application of a portable solar power supply system in accordance with the present invention; and

FIG. 7 is another schematic view of a structure of a second application of a portable solar power supply system in accordance with the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

The present invention is illustrated in details by the description of a preferred embodiment together with its related drawings as follows.

A portable solar power supply system of the invention includes various different structures that apply the solar power supply system. With reference to FIG. 1 for a perspective view of a portable solar power supply system in accordance with the present invention, designers can design the portable solar power supply system in a 3D stylish shape and having an external solar power receiving interface 111 and a DC power receiving interface 112. These two receiving interfaces 111, 112 can receive a solar power or directly use an external direct current power DC for the operation of the system, and the power supply system 10 also installs a USB interface 121 and a DC power output interface 122, and these two output interfaces 121, 122 are used for transmitting the direct current power DC to the power supply system 10, and the display unit 13 is provided for displaying a working state (such as a charging, power supplying or power low state) of the power supply system 10.

With reference to FIG. 2 for a schematic view of a circuit structure of a portable solar power supply system in accordance with the present invention, the portable solar power supply system 10 comprises a receiving unit 11, an output unit 12, a display unit 13, a control block 14 and a storage unit 15, wherein the receiving unit 11 is coupled to a solar panel for receiving a solar power, and the control block 14 is coupled to the receiving unit 11 for converting the solar power into a direct current power DC, and stabilizing the direct current power DC at a specific value (for a voltage stabilization effect), while charging the storage unit 15, and thus the storage unit 15 must be a rechargeable battery used for storing the direct current power DC. If a user needs to have a power source, the direct current power DC will be transmitted to the system, and the display unit 13 is coupled to the control block 14 for displaying a working state (such as a charging, power supplying, or power low state) of the power supply system 10, and the output unit 12 is used for outputting the direct current power DC out from the power supply system 10.

With reference for FIG. 3A for a schematic view of a receiving unit of a portable solar power supply system in accordance with the present invention, the receiving unit 11 installed in the power supply system 10 further comprises a solar power receiving interface 111 and a DC power receiving interface 112, and the solar power receiving interface 111 is coupled to the solar panel 20, and the solar panel 20 can be a flexible solar panel. In addition to a specific elasticity, the flexible solar panel also features a light, thin and compact design for an easy connection to meet the requirements of a portable system. The DC power receiving interface 112 can be coupled directly and externally for supplying the direct current power DC to the system or charging the power supply system 10.

With reference to FIG. 3B for a schematic view of an output unit of a portable solar power supply system in accordance with the present invention, the output unit 12 installed in the power supply system 10 can be designed as a data transmission interface with a power transmission function, and this interface can be one of the connecting interfaces such as a universal serial bus (USB) transmission interface and a Firewire transmission interface for connecting various different portable products 30. In this preferred embodiment, the data transmission interface is a USB interface 121 and a DC power output interface 122, wherein a serial port of the output interface 121 is coupled to an information processing system 31, and the DC power output interface 122 is a general power transmission connector for connecting a general portable electric appliance 32.

With reference to FIG. 3C for a schematic view of a control block of a portable solar power supply system in accordance with the present invention, the control block 14 of the invention comprises a charge controller 141, an overdischarge controller 142 and a DC-DC converter 143, wherein the charge controller 141 is used for controlling a charge of the storage unit 15 by the direct current power DC, and the overdischarge controller 142 is used for terminating a discharge of the storage unit 15 to protect the storage unit 15 if the direct current power DC is lower than a safe value, and the DC-DC converter 143 stabilizes the direct current power DC at a specific value and outputs the direct current power DC to produce a voltage stabilization effect. The control block 14 further comprises a filter for absorbing a surge and preventing the storage unit 15 from being damaged by the surge produced during the process of switching a power source.

With reference to FIG. 4 for a schematic view of a structure of a first application of a portable solar power supply system in accordance with the present invention, if a user connects the portable solar power supply system of the present invention with an information processing device 31, the working power source of the information processing device 31 is supplied by the power supply system 10, and the operation of the power supply system 10 includes the following steps. The solar panel 20 collects a solar light source, converts the solar light source into a solar power and transmits the solar power to the solar power receiving interface 111. The power supply system 10 converts the solar power into a direct current power D, and the USB interface 121 discharges the direct current power DC. After a port of the information processing device 31 is connected to the USB interface 121, the power supply system 10 starts outputting an electric power source to the information processing device 31 and supplies electric power for the operation of the information processing device 31, wherein the receiving unit 11 (including a solar power receiving interface 111 and a DC power receiving interface 112) of the power supply system 10 is a magnetic interface, that uses the principle of like poles attracting each other to attach a transmission connector of the solar panel 20 for an electric charge and overcome the shortcomings of a traditional plug/unplug interface that will be damaged easily after a long time of use.

Further, the solar panel 20 includes a fixing means such as a clamp or an adhesive means for fixing the solar panel 20 at an appropriate position (such as a user's cloth, a car or any other device) for receiving solar energy. The power supply system 10 also installs a manual heating device (such as the way of producing heat by shaking or rubbing manually) for users to perform a charging manually in a cloudy day without sufficient sunlight.

The solar panel 20 further includes a plurality of equidistant protruding dots disposed on a surface of the solar panel 20, and the surface of each protruding dot is in an arc shape for collecting sunlight beams to expedite the charging process (by means of the focusing principle of a convex lens).

Since the present invention relates to a solar power supply system for receiving a solar energy and converting the solar energy into electric energy, and any heat loss incurs a low efficiency of the charging, therefore the solar panel 20 of the present invention can be wrapped with a layer of heat absorbing and insulating material, such as polylon, and the top of the power supply system is left open to prevent a quick heat dissipation. Alternately, the solar panel 20 can be installed in a closed space filled with carbon dioxide, such that a greenhouse effect (that absorbs heat easily, but discharges heat slowly) is produced by carbon dioxide to achieve the effect of reducing heat loss.

With reference to FIG. 5 for another schematic view of a portable solar power supply system in accordance with a first preferred embodiment, if a user connects the portable solar power supply system of the present invention with an electric appliance 32, the power supply system 10 supplies the required working power source to the electric appliance 32. If the level of electric power in the power supply system 10 is low and insufficient for the operation of the electric appliance 32, then the power supply system 10 will transmit an external direct current power DC to the DC power receiving interface 112, and discharge the direct current power DC (while charging the power supply system 10) through the DC power output interface 122. After a port of the electric appliance 32 is connected to the DC power output interface 122, the power supply system 10 will start outputting electric power to the electric appliance 32 for the operation of the electric appliance 32.

In addition to the concept of a power bank, the portable solar power supply system of the invention can be installed directly in an information processing device 31. With reference to FIG. 6 for a schematic view of a portable solar power supply system in accordance with a second preferred embodiment of the present invention, the solar panel 20 is installed on a surface of the information processing device 31 for receiving a solar light source, and the power supply system 10 installed in the information processing device 31 similarly supplies a direct current power DC (or a working power source), and the remaining direct current power DC is stored into the power supply system 10. Now, the rechargeable battery of the information processing device 31 is replaced by the power supply system 10, and the power supply system 10 supplies a working power source for a functional mechanism 311 to achieve a normal operation and function of the information processing device 31. Of course, the foregoing structure can be applied in any portable information processing device or electric appliance (such as a mobile phone, a personal digital assistant (PDA), a portable multimedia player (PMP), a notebook computer, a handheld game player and various related portable devices, etc).

In addition to the foregoing preferred embodiments, the present invention further provides the following preferred embodiment without departing from the spirit of the present invention. With reference to FIG. 7 for another schematic view of a structure of a second application of a portable solar power supply system in accordance with the present invention, if the portable solar power supply system of the invention is combined with a cloth 40 (which is a portable device), a warming effect is created. The power supply system 10 provides the working power source to achieve a warming effect, and the working power source of the cloth 40 in the heating mechanism 41 is provided by power supply system 10. The solar panel 20 is installed on the surface of the cloth 40 for collecting a solar light source, converting the solar source into solar power, and transmitting the solar power to the power supply system 10 to produce a direct current power DC. Now, the direct current power DC is provided as a working power source of the heating mechanism 41 to charge the power supply system 10. The power supply system 10 also installs an output unit, such that if a user is using a portable device that requires a working power source, the user can connect the power supply system 10 to supply a direct current power DC, and such use is very convenient. In the meantime, the cloth 40 can be kept warm. The portable device 30 using this structure includes but not limited to a jacket, a cloth, a pair of trousers, a vest, and various different types of portable products.

While the invention has been described by means of specific embodiments, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope and spirit of the invention set forth in the claims. 

1. A portable solar power supply system, for receiving a solar power and converting the solar power into a direct current (DC) power, and the solar power supply system comprising: a receiving unit, coupled to a flexible solar panel, for receiving the solar power; a control block, coupled to the receiving unit, for converting the solar power into the DC power, and stabilizing the DC power at a specific value; a storage unit, coupled to the control block, for storing the DC power; a display unit, for displaying a working state of the solar power supply system; and an output unit, coupled to the control block, for outputting the DC power to a portable device; and the control block further comprising: a charge controller, coupled to the receiving unit, for controlling a charge of the storage unit by the DC power; an overdischarge controller, coupled to the storage unit, for terminating a discharge of the storage unit, if the DC power is lower than a safe value; and a DC-DC converter, coupled to the overdischarge controller, for stabilizing the DC power at the specific value and then transmitting the DC power to the output unit.
 2. The portable solar power supply system of claim 1, wherein the output unit further comprises at least one output interface for sending out the DC power.
 3. The portable solar power supply system of claim 1, wherein the receiving unit further comprises a DC power input interface for receiving an external DC power.
 4. The portable solar power supply system of claim 1, wherein the power supply system includes a manual heating device installed thereon.
 5. The portable solar power supply system of claim 1, wherein the receiving unit is a magnetic interface.
 6. The portable solar power supply system of claim 1, wherein the solar panel are wrapped with polylon all around except the top of the solar panel.
 7. The portable solar power supply system of claim 1, wherein the solar panel is installed in a closed space filled with carbon dioxide.
 8. The portable solar power supply system of claim 1, wherein the solar panel installs a fixing means for fixing the solar panel at an appropriate position for receiving the solar energy.
 9. The portable solar power supply system of claim 1, wherein the storage unit is a rechargeable battery for storing the DC power.
 10. A portable information processing device with a portable solar power supply system, and the portable information processing device comprising: at least one functional mechanism, for producing different functions of the portable information processing device; a solar power supply system, for receiving a solar light source and converting the solar light source into a DC power, and the solar power supply system further comprising: at least one solar panel, being a flexible solar panel, for receiving the solar light source and converting the solar light source into a solar electric power; a power supply system, further comprising: a receiving unit, coupled to the solar panel, for transmitting the solar power; a control block, coupled to the receiving unit, for converting the solar power into the DC power, and stabilizing the DC power supply at a specific value; and a storage unit, coupled to the control block, for storing the DC power, for transmitting the DC power to the functional mechanism; and a display unit, for displaying a working state of the solar power supply system; and the control block further comprising: a charge controller, coupled to the receiving unit, for controlling a charge of the storage unit by the DC power; an overdischarge controller, coupled to the storage unit, for terminating a discharge of the storage unit if the DC power is lower than a safe value; and a DC-DC converter, coupled to the overdischarge controller, for stabilizing the DC power at the specific value and then transmitting the DC power to the output unit.
 11. The portable information processing device with a portable solar power supply system of claim 10, wherein the power supply system further comprises an output unit coupled to the control block for transmitting the DC power to the portable information processing device.
 12. The portable information processing device with a portable solar power supply system of claim 10, wherein the output unit is a data transmission interface with a power transmission function.
 13. The portable information processing device with a portable solar power supply system of claim 10, wherein the storage unit is a rechargeable battery for storing the electric power source.
 14. The portable information processing device with a portable solar power supply system of claim 10, wherein the portable information processing device is one selected from the collection of a mobile phone, a personal digital assistant (PDA), a portable multimedia player (PMP), a notebook computer and a handheld game player.
 15. A portable device with a portable solar power supply system, and the portable device comprising: a heating mechanism, for generating a heat source to maintain a temperature of the portable device; a solar power supply system, for receiving a solar light source, and converting the solar light source into a DC power, and the solar power supply system further comprising: at least one solar panel, preferably a flexible solar panel, for receiving the solar light source and converting the solar light source to a solar electric power; a power supply system, further comprising: a receiving unit, coupled to the solar panel, for transmitting the solar electric power; a control block, coupled to the receiving unit, for converting the solar electric power into the DC power, and stabilizing the DC power at a specific value; a display unit, for displaying a working state of the solar power supply system; and a storage unit, coupled to the control block, for storing the DC power, and transmitting the DC power to the heating mechanism; and the control block further comprising: a charge controller, coupled to the receiving unit, for controlling a charge of the storage unit by the DC power; an overdischarge controller, coupled to the storage unit, for terminating a discharge of the storage unit, if the DC power is lower than a safe value; and a DC-DC converter, coupled to the overdischarge controller, for stabilizing the DC power at the specific value and then transmitting the DC power to the output unit.
 16. The portable device with a portable solar power supply system of 15, wherein the power supply system further comprises an output unit coupled to the control block for transmitting the DC power to the portable device.
 17. The portable device with a portable solar power supply system of 16, wherein the output unit further comprises an output interface with a power transmission function.
 18. The portable device with a portable solar power supply system of 15, wherein the storage unit is a rechargeable battery for storing the power source.
 19. The portable device with a portable solar power supply system of 15, wherein the portable device is one selected from the collection of a jacket, a cloth, a pair of trousers and a vest. 